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      Shelf Life Potential and the Fruit Cuticle: The Unexpected Player

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          Abstract

          The plant cuticle is an extracellular barrier that protects the aerial, non-lignified parts of plants from the surrounding environment, and furthermore plays important functions in organ growth and development. The role of the cuticle in post-harvest quality of fruits is a topic currently driving a lot of interest since an increasing bulk of research data show its modulating influence on a number of important traits determining shelf life and storage potential, including water transpiration and fruit dehydration, susceptibility to rots, pests and disorders, and even firmness. Moreover, the properties of fruit cuticles keep evolving after harvest, and have also been shown to be highly responsive to the external conditions surrounding the fruit. Indeed, common post-harvest treatments will have an impact on cuticle integrity and performance that needs to be evaluated for a deeper understanding of changes in post-harvest quality. In this review, chemical and biophysical properties of fruit cuticles are summarized. An overview is also provided of post-harvest changes in cuticles and the effects thereupon of some post-harvest procedures, with the purpose of offering a comprehensive summary of currently available information. Identification of natural sources of variability in relevant quality traits would allow breeding for the improvement of post-harvest life of fruit commodities.

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          Protecting against water loss: analysis of the barrier properties of plant cuticles.

          M Riederer, L. Schreiber (2001)
          The cuticle is the major barrier against uncontrolled water loss from leaves, fruits and other primary parts of higher plants. More than 100 mean values for water permeabilities determined with isolated leaf and fruit cuticles from 61 plant species are compiled and discussed in relation to plant organ, natural habitat and morphology. The maximum barrier properties of plant cuticles exceed that of synthetic polymeric films of equal thickness. Cuticular water permeability is not correlated to the thickness of the cuticle or to wax coverage. Relationships between cuticular permeability, wax composition and physical properties of the cuticle are evaluated. Cuticular permeability to water increases on the average by a factor of 2 when leaf surface temperature is raised from 15 degrees C to 35 degrees C. Organic compounds of anthropogenic and biogenic origin may enhance cuticular permeability. The pathway taken by water across the cuticular transport barrier is reviewed. The conclusion from this discussion is that the bulk of water diffuses as single molecules across a lipophilic barrier while a minor fraction travels along polar pores. Open questions concerning the mechanistic understanding of the plant cuticular transport barrier and the role the plant cuticle plays in ensuring the survival and reproductive success of an individual plant are indicated.
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            Superhydrophobic and superhydrophilic plant surfaces: an inspiration for biomimetic materials.

            Kerstin Koch, Wilhelm Barthlott (2009)
            The diversity of plant surface structures, evolved over 460 million years, has led to a large variety of highly adapted functional structures. The plant cuticle provides structural and chemical modifications for surface wetting, ranging from superhydrophilic to superhydrophobic. In this paper, the structural basics of superhydrophobic and superhydrophilic plant surfaces and their biological functions are introduced. Wetting in plants is influenced by the sculptures of the cells and by the fine structure of the surfaces, such as folding of the cuticle, or by epicuticular waxes. Hierarchical structures in plant surfaces are shown and further types of plant surface structuring leading to superhydrophobicity and superhydrophilicity are presented. The existing and potential uses of superhydrophobic and superhydrophilic surfaces for self-cleaning, drag reduction during moving in water, capillary liquid transport and other biomimetic materials are shown.
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              Transport barriers made of cutin, suberin and associated waxes.

              Lukas Schreiber (2010)
              Cutinized leaf epidermal cells and suberized root cell walls form important lipophilic interfaces between the plant and its environment, significantly contributing to the regulation of water uptake and the transport of solutes in and out of the plant. A wealth of new molecular information on the genes and enzymes contributing to cutin, suberin and wax biosynthesis have become available within the past few years, which is examined in the context of the functional properties of these barriers in terms of transport and permeability. Recent progress made in measuring transport properties of cutinized and suberized barriers in plants is reviewed, and promising approaches obtained with Arabidopsis and potato that might link the molecular information with transport properties are suggested. Copyright © 2010 Elsevier Ltd. All rights reserved.
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                Author and article information

                Contributors
                Journal
                Journal ID (nlm-ta): Front Plant Sci
                Journal ID (iso-abbrev): Front Plant Sci
                Journal ID (publisher-id): Front. Plant Sci.
                Title: Frontiers in Plant Science
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 1664-462X
                Publication date (Electronic): 12 June 2019
                Publication date Collection: 2019
                Volume: 10
                Electronic Location Identifier: 770
                Affiliations
                [1] 1Unitat de Postcollita-XaRTA, AGROTÈCNIO, Departament de Química, Universitat de Lleida , Lleida, Spain
                [2] 2IHSM La Mayora, Departamento de Biología Molecular y Bioquímica, Universidad de Málaga , Málaga, Spain
                [3] 3IHSM La Mayora, Departamento de Mejora Genética y Biotecnología, Consejo Superior de Investigaciones Científicas , Málaga, Spain
                Author notes

                Edited by: Artur Zdunek, Institute of Agrophysics (PAN), Poland

                Reviewed by: Werner B. Herppich, Leibniz Institute for Agricultural Engineering and Bioeconomy (ATB), Germany; Benedicte Bakan, Institut National de la Recherche Agronomique (INRA), France

                *Correspondence: Antonio Heredia, heredia@ 123456uma.es

                This article was submitted to Crop and Product Physiology, a section of the journal Frontiers in Plant Science

                Article
                DOI: 10.3389/fpls.2019.00770
                PMC ID: 6581714
                PubMed ID: 31244879
                SO-VID: af3b42cb-b68b-47c2-9285-f27303939d4d
                Copyright © Copyright © 2019 Lara, Heredia and Domínguez.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 19 March 2019
                Date accepted : 28 May 2019
                Page count
                Figures: 3, Tables: 2, Equations: 0, References: 135, Pages: 18, Words: 0
                Funding
                Funded by: Ministry of Education and Science 10.13039/100009002
                Categories
                Subject: Plant Science
                Subject: Review

                ScienceOpen disciplines: Plant science & Botany
                Keywords: cuticle,fruit,mechanical properties,cell wall,post-harvest,shelf life,treatments,water loss
                Data availability:
                ScienceOpen disciplines: Plant science & Botany
                Keywords: cuticle, fruit, mechanical properties, cell wall, post-harvest, shelf life, treatments, water loss

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